public NetworkValue(BaseUDPInterface sourceInterface, string id, string device, string name, string description, string valueDescription, BindingValueUnit unit, string exportFormat)
: base(sourceInterface)
{
_id = id;
_format = exportFormat;
_value = new HeliosValue(sourceInterface, BindingValue.Empty, device, name, description, valueDescription, unit);
Values.Add(_value);
Triggers.Add(_value);
}
private void CreateSignal(string name, BindingValueUnit unit)
{
HeliosValue numericSignal = new HeliosValue(this, BindingValue.Empty, "", name, "Current signal on this wire.",
"Value copied from input to output.", unit);
numericSignal.Execute += (action, args) => numericSignal.SetValue(args.Value, false);
Actions.Add(numericSignal);
Triggers.Add(numericSignal);
Values.Add(numericSignal);
}
public override BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to)
{
if (from is DegreesUnit)
{
return new BindingValue(value.DoubleValue / 57.3d);
}
else
{
return new BindingValue(value.DoubleValue * 57.3d);
}
}
public override BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to)
{
if (from is DegreesUnit)
{
return(new BindingValue(value.DoubleValue / 57.3d));
}
else
{
return(new BindingValue(value.DoubleValue * 57.3d));
}
}
public override BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to)
{
SpeedUnit fromUnit = from as SpeedUnit;
SpeedUnit toUnit = to as SpeedUnit;
if (fromUnit != null && toUnit != null)
{
double newValue = ((value.DoubleValue * fromUnit.DistanceUnit.ConversionFactor) / toUnit.DistanceUnit.ConversionFactor) / (fromUnit.TimeUnit.ConversionFactor / toUnit.TimeUnit.ConversionFactor);
return(new BindingValue(newValue));
}
else
{
return(BindingValue.Empty);
}
}
public override BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to)
{
PressureUnit fromUnit = from as PressureUnit;
PressureUnit toUnit = to as PressureUnit;
if (fromUnit != null && toUnit != null)
{
double newValue = ((value.DoubleValue * fromUnit.MassConversionFactor) / toUnit.MassConversionFactor) / (fromUnit.AreaConversionFactor / toUnit.AreaConversionFactor);
return(new BindingValue(newValue));
}
else
{
return(BindingValue.Empty);
}
}
public override BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to)
{
PressureUnit fromUnit = from as PressureUnit;
PressureUnit toUnit = to as PressureUnit;
if (fromUnit != null && toUnit != null)
{
double newValue = ((value.DoubleValue * fromUnit.MassConversionFactor) / toUnit.MassConversionFactor) / (fromUnit.AreaConversionFactor / toUnit.AreaConversionFactor);
return new BindingValue(newValue);
}
else
{
return BindingValue.Empty;
}
}
public override BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to)
{
AreaUnit fromUnit = from as AreaUnit;
AreaUnit toUnit = to as AreaUnit;
if (fromUnit != null && toUnit != null)
{
double newValue = (value.DoubleValue * fromUnit.ConversionFactor) / toUnit.ConversionFactor;
return(new BindingValue(newValue));
}
else
{
return(BindingValue.Empty);
}
}
public override BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to)
{
TimeUnit fromUnit = from as TimeUnit;
TimeUnit toUnit = to as TimeUnit;
if (fromUnit != null && toUnit != null)
{
double newValue = (value.DoubleValue * fromUnit.ConversionFactor) / toUnit.ConversionFactor;
return new BindingValue(newValue);
}
else
{
return BindingValue.Empty;
}
}
private void AddNeedle(string name, string needleImage, string actionIdentifier, string valueDescription,
Point posn, Size size, Point centerPoint, BindingValueUnit typeValue, double[] initialCalibration, double[,] calibrationPoints = null)
{
AddNeedle(name: name,
needleImage: needleImage,
posn: posn,
size: size,
centerPoint: centerPoint,
interfaceDeviceName: _interfaceDeviceName,
interfaceElementName: name,
actionIdentifier: actionIdentifier,
valueDescription: valueDescription,
typeValue: typeValue,
initialCalibration: initialCalibration,
calibrationPoints: calibrationPoints,
fromCenter: false);
}
public Mk2CNeedle(string name, string needleWay, string actionIdentifier, string valueDescription,
Point posn, Size size, Point centerPoint, BindingValueUnit typeValue, double[] initialCalibration, double[,] calibrationPoints)
: base(name, size)
{
_needleCalibration = new CalibrationPointCollectionDouble(initialCalibration[0], initialCalibration[1], initialCalibration[2], initialCalibration[3]);
if (calibrationPoints != null)
{
for (int c = 0; c < calibrationPoints.Length / 2; c++)
{
_needleCalibration.Add(new CalibrationPointDouble(calibrationPoints[c, 0], calibrationPoints[c, 1]));
}
}
_needle = new GaugeNeedle(needleWay, posn, size, centerPoint);
Components.Add(_needle);
_value = new HeliosValue(this, new BindingValue(0d), "", actionIdentifier, name + " - " + actionIdentifier, valueDescription, typeValue);
_value.Execute += new HeliosActionHandler(NeedleValue_Execute);
Actions.Add(_value);
}
/// <summary> /// Converts value from one unit to another. /// </summary> /// <param name="value">Value which will be converted.</param> /// <param name="from">Unit which this value is currently in.</param> /// <param name="to">Unit to use for the return value.</param> /// <returns></returns> public abstract BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to);
/// <summary> /// Returns a list of units which this converter can convert between. Converter must be able to convert betwen any of the /// given return units. /// </summary> public abstract bool CanConvert(BindingValueUnit from, BindingValueUnit to);
protected Mk2CNeedle AddNeedle(string name, string needleImage, Point posn, Size size, Point centerPoint,
string interfaceDeviceName, string interfaceElementName, string actionIdentifier, string valueDescription, BindingValueUnit typeValue,
double[] initialCalibration, double[,] calibrationPoints, bool fromCenter)
{
if (fromCenter)
{
posn = FromCenter(posn, size);
}
string componentName = GetComponentName(name);
Mk2CNeedle newNeedle = new Mk2CNeedle(componentName, needleImage, actionIdentifier, valueDescription, posn, size, centerPoint, typeValue, initialCalibration, calibrationPoints);
Children.Add(newNeedle);
foreach (IBindingTrigger trigger in newNeedle.Triggers)
{
AddTrigger(trigger, componentName);
}
foreach (IBindingAction action in newNeedle.Actions)
{
AddAction(action, componentName);
}
AddDefaultInputBinding(
childName: componentName,
interfaceTriggerName: interfaceDeviceName + "." + interfaceElementName + ".changed",
deviceActionName: "set." + actionIdentifier);
return(newNeedle);
}
public override bool CanConvert(BindingValueUnit from, BindingValueUnit to)
{
return(from is MassFlowUnit && to is MassFlowUnit);
}
public override bool CanConvert(BindingValueUnit from, BindingValueUnit to)
{
return((from is RadiansUnit && to is DegreesUnit) || (from is DegreesUnit && to is RadiansUnit));
}
public HeliosValueWithCorrectedDeviceName(FalconInterface falconInterface, BindingValue empty, string device, string name, string description, string valueDescription, BindingValueUnit unit, string correctedDeviceName) : base(falconInterface, empty, device, name, description, valueDescription, unit)
{
DeviceInUserInterface = correctedDeviceName;
}
public override bool CanConvert(BindingValueUnit from, BindingValueUnit to)
{
return (from is TimeUnit && to is TimeUnit);
}
/// <summary> /// Converts value from one unit to another. /// </summary> /// <param name="value">Value which will be converted.</param> /// <param name="from">Unit which this value is currently in.</param> /// <param name="to">Unit to use for the return value.</param> /// <returns></returns> public abstract BindingValue Convert(BindingValue value, BindingValueUnit from, BindingValueUnit to);
private DualNetworkValue(BaseUDPInterface sourceInterface, string id, string device, string name, string description, string valueDescription, BindingValueUnit unit, double baseValue, string exportFormat)
: base(sourceInterface)
{
_pure_name = "Pure " + name;
_id = id;
_format = exportFormat;
_baseValue = baseValue;
_value = new HeliosValue(sourceInterface, BindingValue.Empty, device, name, description, valueDescription, unit);
_pure_value = new HeliosValue(sourceInterface, BindingValue.Empty, device, _pure_name, "Pure value in DCS", "pure value", unit);
Values.Add(_value);
Triggers.Add(_value);
Values.Add(_pure_value);
Triggers.Add(_pure_value);
}
public DualNetworkValue(BaseUDPInterface sourceInterface, string id, double scale, string device, string name, string description, string valueDescription, BindingValueUnit unit)
: this(sourceInterface, id, scale, device, name, description, valueDescription, unit, 0d, "%.4f")
{
}
protected HeliosValue AddValue(string device, string name, string description, string valueDescription, BindingValueUnit unit, string correctedDeviceName = null)
{
HeliosValue value;
if (correctedDeviceName == null)
{
value = new HeliosValue(FalconInterface, BindingValue.Empty, device, name, description, valueDescription, unit);
}
else
{
value = new HeliosValueWithCorrectedDeviceName(FalconInterface, BindingValue.Empty, device, name, description, valueDescription, unit, correctedDeviceName);
}
FalconInterface.Triggers.Add(value);
FalconInterface.Values.Add(value);
_values.Add(device + "." + name, value);
return(value);
}
protected HeliosValue AddValue(string device, string name, string description, string valueDescription, BindingValueUnit unit)
{
HeliosValue value = new HeliosValue(FalconInterface, BindingValue.Empty, device, name, description, valueDescription, unit);
FalconInterface.Triggers.Add(value);
FalconInterface.Values.Add(value);
_values.Add(device + "." + name, value);
return(value);
}
public override bool CanConvert(BindingValueUnit from, BindingValueUnit to)
{
return (from is RadiansUnit && to is DegreesUnit) || (from is DegreesUnit && to is RadiansUnit);
}
protected HeliosValue AddValue(string device, string name, string description, string valueDescription, BindingValueUnit unit)
{
HeliosValue value = new HeliosValue(FalconInterface, BindingValue.Empty, device, name, description, valueDescription, unit);
FalconInterface.Triggers.Add(value);
FalconInterface.Values.Add(value);
_values.Add(device + "." + name, value);
return value;
}
public override bool CanConvert(BindingValueUnit from, BindingValueUnit to)
{
return(from is PressureUnit && to is PressureUnit);
}
public NetworkValue(BaseUDPInterface sourceInterface, string id, string device, string name, string description, string valueDescription, BindingValueUnit unit, string exportFormat)
: base(sourceInterface)
{
_id = id;
_format = exportFormat;
_value = new HeliosValue(sourceInterface, BindingValue.Empty, device, name, description, valueDescription, unit);
Values.Add(_value);
Triggers.Add(_value);
}
public ScaledNetworkValue(BaseUDPInterface sourceInterface, string id, CalibrationPointCollectionDouble scale, string device, string name, string description, string valueDescription, BindingValueUnit unit)
: this(sourceInterface, id, scale, device, name, description, valueDescription, unit, "%.4f")
{
}
private HeliosValue AddValue(string device, string name, string description, string valueDescription, BindingValueUnit unit)
{
HeliosValue value = new HeliosValue(this, BindingValue.Empty, device, name, description, valueDescription, unit);
Triggers.Add(value);
Values.Add(value);
_values.Add(device + "." + name, value);
return(value);
}
private HeliosValue AddValue(string device, string name, string description, string valueDescription, BindingValueUnit unit)
{
HeliosValue value = new HeliosValue(this, BindingValue.Empty, device, name, description, valueDescription, unit);
Triggers.Add(value);
Values.Add(value);
_values.Add(device + "." + name, value);
return value;
}
public DualNetworkValue(BaseUDPInterface sourceInterface, string id, CalibrationPointCollectionDouble scale, string device, string name, string description, string valueDescription, BindingValueUnit unit, string exportFormat)
: this(sourceInterface, id, device, name, description, valueDescription, unit, 0d, exportFormat)
{
_calibratedScale = scale;
_scale = 0d;
}
public ScaledNetworkValue(BaseUDPInterface sourceInterface, string id, CalibrationPointCollectionDouble scale, string device, string name, string description, string valueDescription, BindingValueUnit unit, string exportFormat)
: this(sourceInterface, id, device, name, description, valueDescription, unit, 0d, exportFormat)
{
_calibratedScale = scale;
_scale = 0d;
}
public DualNetworkValue(BaseUDPInterface sourceInterface, string id, double scale, string device, string name, string description, string valueDescription, BindingValueUnit unit, double baseValue, string exportFormat)
: this(sourceInterface, id, device, name, description, valueDescription, unit, baseValue, exportFormat)
{
_calibratedScale = null;
_scale = scale;
}
public ScaledNetworkValue(BaseUDPInterface sourceInterface, string id, double scale, string device, string name, string description, string valueDescription, BindingValueUnit unit)
: this(sourceInterface, id, scale, device, name, description, valueDescription, unit, 0d, "%.4f")
{
}
public ScaledNetworkValue(BaseUDPInterface sourceInterface, string id, double scale, string device, string name, string description, string valueDescription, BindingValueUnit unit, double baseValue, string exportFormat)
: this(sourceInterface, id, device, name, description, valueDescription, unit, baseValue, exportFormat)
{
_calibratedScale = null;
_scale = scale;
}
/// <summary> /// Returns a list of units which this converter can convert between. Converter must be able to convert betwen any of the /// given return units. /// </summary> public abstract bool CanConvert(BindingValueUnit from, BindingValueUnit to);
